Title :
Adaptive Genetic Network Programming
Author :
Xianneng Li ; Wen He ; Hirasawa, K.
Author_Institution :
Grad. Sch. of Inf., Waseda Univ., Kitakyushu, Japan
Abstract :
Genetic Network Programming (GNP) is derived from Genetic Algorithm (GA) and Genetic Programming (GP), which applies evolution theory to evolve a population of directed graph to model complex systems. It has been shown that GNP can solve typical control problems, as well as many real-world problems. However, studying GNP is mainly focused on the specific aspect, while the fundamental characteristics that ensure the success of GNP are rarely investigated in the previous research. This paper reveals an important feature of GNP - reusability of nodes - to efficiently identify and formulate the building blocks of evolution. Accordingly, adaptive GNP is developed which self-adapts both crossover and mutation probabilities of each search variable to circumstances. The adaptation allows the automatic adjustment of evolution bias toward the frequently reused nodes in high-quality individuals. The adaptive GNP is compared with traditional GNP in a benchmark control testbed to evaluate its superiority.
Keywords :
directed graphs; genetic algorithms; large-scale systems; probability; GA; GNP; adaptive genetic network programming; benchmark control testbed; complex systems; crossover probabilities; directed graph; evolution automatic adjustment; evolution theory; genetic algorithm; mutation probabilities; node reusability; search variable; Delay effects; Economic indicators; Genetic algorithms; Genetics; Intelligent agents; Sociology; Statistics;
Conference_Titel :
Evolutionary Computation (CEC), 2014 IEEE Congress on
Conference_Location :
Beijing
Print_ISBN :
978-1-4799-6626-4
DOI :
10.1109/CEC.2014.6900290
